Sharp Lp-entropy inequalities on manifolds

Abstract

In 2004, Del Pino and Dolbeault DPDo and Gentil G investigated, independently, best constants and extremals associated to sharp Euclidean Lp-entropy inequalities. In this work, we present some important advances in the Riemannian context. Namely, let (M,g) be a compact Riemannian manifold of dimension n ≥ 3. For 1 < p ≤ 2, we prove that the sharp Riemannian Lp-entropy inequality \[∫M |u|p (|u|p) dvg ≤ np ( Aopt ∫M |∇ u|gp dvg + B) \] holds on all functions u ∈ H1,p(M) such that ||u||Lp(M) = 1. Moreover, we show that the first best Riemannian constant Aopt is equal to the corresponding Euclidean one. Our approach is inspired on the Bakry, Coulhon, Ledoux and Sallof-Coste's idea Ba of getting Euclidean entropy inequalities as a limit case of suitable Gagliardo-Nirenberg inequalities. It is conjectured that the above inequality sometimes fails for p > 2.